Abstract: Quantifying the motion and deformation of large numbers of cells through image sequences obtained with fluorescence microscopy is a recurrent task ...
ABSTRACT. Quantifying the motion and deformation of large numbers of cells through image sequences obtained with fluorescence microscopy is.
PDF | Quantifying the motion and deformation of large numbers of cells through image sequences obtained with fluorescence microscopy is a recurrent task.
ABSTRACT. Quantifying the motion and deformation of large numbers of cells through image sequences obtained with fluorescence microscopy is.
A variational model for level-set based cell tracking which involves less parameters with more intuitive meaning compared to previous approaches is proposed ...
ABSTRACTTime-lapse fluorescence microscopy is an essential technique for quantifying various characteristics of cellular processes,i.e. cell survival, ...
A variational model for level-set based cell tracking in time-lapse fluorescence microscopy images. O Dzyubachyk, W Niessen, E Meijering. 2007 4th IEEE ...
Biological research is impossible to imagine without a microscope. Latest genera- tions of microscopes, able to produce huge arrays of multidimensional data ...
A variational model for level-set based cell tracking in time-lapse fluorescence microscopy images ... contrast, the variational model yielded correct results in ...
Abstract. Cell segmentation and tracking in time-lapse fluorescence microscopy images is a task of fundamental importance in many biological studies on cell ...
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